Lizhou Ma scite author profile

A wide dynamic range of promoters is necessary for fine-tuning transcription levels. However, weak intensity and narrow dynamic range limit transcriptional regulation via constitutive promoters. The upstream activation sequence (UAS) located upstream of the core promoter is a crucial region that could obviously enhance promoter strength. Herein, we created a random mutagenesis library consisting of 330 different variants based on the UAS of the TDH3 promoter with an ∼37-fold dynamic range by error-prone polymerase chain reaction (PCR) and obtained strong intensity mutant UAS, which was ∼12-fold greater than the wildtype UAS TDH3 . Analysis of the mutant library revealed 15 strength-enhancing sites and their corresponding bases of the UAS TDH3 regions, which provided the impetus for a synthetic library. The resulting 32 768 mutant UAS library was constructed by permutation and combination of the bases of the 15 enhancing sites. To characterize the library, a strength prediction model was built by correlating DNA structural features and UAS strength, which provided a model between UAS sequence and intensity. Following characterization, the UAS library was applied to precisely regulate gene expression in the production of β-carotene, proving that the UAS library would be a useful tool for gene tuning in metabolic engineering. In summary, we designed, constructed, and characterized a UAS library that facilitated precise tuning of transcription levels of target proteins.

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An accurate method for antigen β-conglycinin detection in soybean meal

Wei

Mao

et al. 2022

Journal of Food Composition and Analysis

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A novel highly sensitive soy aptasensor for antigen β-conglycinin determination

Wei

et al. 2021

Anal. Methods

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Lizhou Ma

Biological production of adipic acid from renewable substrates: Current and future methods

Effects of replacing fish meal with fermented soybean meal on the growth performance, intestinal microbiota, morphology and disease resistance of largemouth bass (Micropterus salmoides)

Programmable Synthetic Upstream Activating Sequence Library for Fine-Tuning Gene Expression Levels in Saccharomyces cerevisiae

An accurate method for antigen β-conglycinin detection in soybean meal

A novel highly sensitive soy aptasensor for antigen β-conglycinin determination

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